Characterize new materials with unmatched flexibility and performance using our Thermo ScientificNicolet™ iS50R Research FTIR Spectrometers designed for advanced spectroscopic studies. Modulate amplitude and conduct advanced continuous scan, time-resolved step-scan or dual channel spectroscopy applications. Designed with the Vectra-Piezo series interferometer, the Nicolet iS50R Spectrometer provides precision and signal-to-noise ratios not possible with air-bearing or mechanical interferometers that are susceptible to laboratory vibrations and acoustic noises
Beam Splitter : Far-IR, Mid-IR and Near-IR (gold) plus visible range (aluminum) Compatibility : Smart Accessories; Nicolet iS50 modules; Nicolet Continuum Microscope Performance verification : ValPro and SPV Components : Sources, detectors and beamsplitters Power supply : 100-240 V 50/60 Hz Source type : Dual sources standard: Polaris™ long-life IR and visible/NIR Tungsten-Halogen Spectral range : 10 - 27,000 cm-1 depending upon configuration Description : Nicolet iS50R FTIR Spectrometer with Gold, Vectra-piezo interferometer Spectral resolution : 0.09 cm-1 resolution Detector type : Three-position Paraflect detector mirror; Top-mounted DLaTGS Detector with KBr window Dimensions (L x W x H) : 27 in x 25 in x 11 in / 69.8 cm x 62.6 cm x 27.6 cm Weight : 60 kg
Gas Chromatography is a kind of instrument for qualitative and quantitative analysis of multicomponent complex mixture by using chromatographic separation technology and detection technology. Generally, it can be used to analyze the thermal stable organic compounds in soil, such as volatile organic compounds, organic chlorine, organic phosphorus, polycyclic aromatic hydrocarbons, phthalates, etc.
Gas Chromatography is a kind of instrument for qualitative and quantitative analysis of multicomponent complex mixture by using chromatographic separation technology and detection technology. Generally, it can be used to analyze the thermal stable organic compounds in soil, such as volatile organic compounds, organic chlorine, organic phosphorus, polycyclic aromatic hydrocarbons, phthalates, etc.
Liquid Chromatography uses the mixture in liquid-solid or immiscible between the two liquid distribution ratio differences, the mix of the first separation, then analysis and identification of the instrument.